Predominance of aqueous Tl(I) species in the river system downstream from the abandoned Carnoulès mine (Southern France)
- PMID: 21332194
- DOI: 10.1021/es102064r
Predominance of aqueous Tl(I) species in the river system downstream from the abandoned Carnoulès mine (Southern France)
Erratum in
- Environ Sci Technol. 2012 Feb 21;46(4):2477
Abstract
Thallium concentration reached up to 534 μg L(-1) in the Reigous acid mine drainage downstream from the abandoned Pb-Zn Carnoulès mine (Southern France). It decreased to 5.44 μg L(-1) in the Amous River into which the Reigous creek flows. Tl(I) predominated (>98% of total dissolved Tl) over Tl(III), mainly in the form of Tl(+). Small amounts of Tl(III) evidenced in Reigous Creek might be in the form of aqueous TlCl(2)(+). The range of dissolved to particulate distribution coefficients log K(d) = 2.5 L kg(-1) to 4.6 L kg(-1) indicated low affinity of Tl for particles, mainly ferrihydrite, formed in the AMD-impacted watershed. The low retention of Tl(+) on ferrihydrite was demonstrated in sorption experiments, the best fit between experimental and modeled data being achieved for surface complexation constants log K(ads) = -2.67 for strong sites and log K(ads) = -3.76 for weak sites. This new set of constants allowed reasonable prediction of the concentrations of aqueous and particulate Tl resulting from the mixing of water from Reigous Creek and the Amous River water during laboratory experiments, together with those measured in the Amous River field study.
Comment in
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Comment on "predominance of aqueous Tl(I) species in the river system downstream from the abandoned Carnoules mine (Southern France)".Environ Sci Technol. 2012 Feb 21;46(4):2473-4; author reply 2475-6. doi: 10.1021/es203760h. Epub 2012 Feb 3. Environ Sci Technol. 2012. PMID: 22243428 No abstract available.
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